MS2N05-D0BHN-CMSH1-NNNNN-GE120N1004AN-NN
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MPN: R911406587
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The MS2N05-D0BHN-CMSH1-NNNNN-GE120N1004AN-NN is a synchronous servo motor boasting a nominal torque of 1.3 Nm and a maximum torque of 3.4 Nm. Built by Bosch Rexroth Indramat, this motor is part of the MS2N Synchronous Servo Motors series and features IP65 protection. It runs at 3000 rpm rated speed.
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Product Description:
Bosch MS2N05-D0BHN-CMSH1-NNNNN-GE120N1004AN-NN is manufactured with precision and reliability in mind. The module has a standard flange for broad compatibility, a low inertia rotor for rapid dynamic response and an integrated PT1000 sensor for accurate thermal monitoring.
The MS2N05-D0BHN-CMSH1-NNNNN-GE120N1004AN-NN Servo Motor coils have a thermal time of approximately 45.8 seconds which indicates how quickly they react thermally to changes in power input. When the winding temperature rises by 100 Kelvin, it can sustain a continuous current of 3.03 Amperes without exceeding thermal limits. It is intended for environments without heavy contamination or pressure differential as its rotating output shaft has a smooth finish and lacks a sealing ring. Under warmed up conditions with a 100 K rise, it can generate 31.3 newton meters of peak torque, beyond which there is a risk of overheating or reduced performance. It comes with a 20-bit encoder high resolution position feedback device which offers advanced accuracy and for communication it uses ACUROlink protocols. The electromagnetic inertia of the motor's coils is 46.74 millihenries, which influences how fast the current can change through the windings and affects control dynamics. Its electrically permissible rotational speed is 4000 revolutions per minute which is the maximum speed its windings can handle under standard electrical operation.
The MS2N05-D0BHN-CMSH1-NNNNN-GE120N1004AN-NN Servo Motor includes a brake mechanism of size category 1 which is typically used for maintaining position when powered off and is activated by loss of power and released when electrical current is applied. This module designated speed for the winding is 2000 RPM, which aligns with rated operating conditions for optimal performance. It is able to cool itself through natural airflow or radiation for temperature regulation and doesn't have any liquid cooling systems.
Frequently Asked Questions about MS2N05-D0BHN-CMSH1-NNNNN-GE120N1004AN-NN:
Q: How does the PT1000 sensor improve thermal control in the MS2N05-D0BHN-CMSH1-NNNNN-GE120N1004AN-NN motor?
A: The PT1000 sensor provides accurate real-time temperature data, enabling precise thermal regulation. This prevents overheating and extends motor lifespan under dynamic load conditions.
Q: Why is low rotor inertia important in the MS2N05-D0BHN-CMSH1-NNNNN-GE120N1004AN-NN servo motor?
A: Low rotor inertia allows rapid acceleration and deceleration, essential for high-speed and precise positioning. It significantly enhances responsiveness in demanding motion control applications.
Q: How does the 20-bit encoder improve performance in Bosch MS2N05-D0BHN-CMSH1-NNNNN-GE120N1004AN-NN?
A: A 20-bit encoder delivers high-resolution feedback, enabling ultra-precise positioning. This level of accuracy is vital in automation tasks requiring micron-level control.
Q: What is the role of the ACUROlink protocol in this servo motor?
A: ACUROlink provides fast and reliable communication between the encoder and controller. It supports real-time data exchange, enhancing synchronization and system safety.
Q: Why is the 46.74 mH inductance significant in this motor’s control behavior?
A: High inductance moderates current change rates, leading to smoother torque output. It helps reduce electromagnetic noise and improves stability during control loop execution.
